Tool and Methods for Installation of Interior Panels

ABSTRACT

The present invention is a Tool operable by one person and Methods for installation of interior panels such as drywall, sheetrock, plywood or any applicable on horizontal and vertical framed surfaces without using the floor as a supportive base for the Tool.

FIELD OF THE INVENTION

The present invention refers to construction field as a tool operable by one person and methods providing an installation of interior panels on vertical and horizontal framed surfaces without using the floor as a supportive base for the tool.

BACKGROUND OF THE INVENTION

According to practical experience construction site is usually filled up with stocks of construction materials such as lumber, packs of drywalls, etc., as well as construction tools and equipment. Existing drywall installation devices are floor-based and require the floor to be totally unoccupied with anything in order to operate installation equipment safely.

Technologically ceiling panels supposed to be installed first. So, to install for example 5 boards on the ceiling of some room installer often have to remove 25 or so other panels as well as another staff out of his way. It can take much more time and efforts to clean the room prior to installation than installation process itself.

Due to operational complexity and dimensional features of existing drywall installation devices transportation, deployment and usage of it contribute to efficiency losses as well.

As a result many installers prefer or forced to do drywall installation manually. However for that one installer likely will not be able to do most of the job on his own, not speaking of physical efforts required for that.

Shortcomings mentioned above reveal some space for improvement.

SUMMARY OF THE INVENTION

This invention related to one person operable tool and designated for installation of interior panels on vertical and horizontal framed surfaces.

Functioning of invented tool based on the invented methods for mounting of interior panels, meaning that invented tool does not need the floor as supportive base and uses the ceiling and wall construction frames instead as a bearing structure.

Being compact, easy operable and reliably attachable to ceiling and wall frames according to invented methods the invented tool will allow to optimize interior panels installation process compare to existing tools and methods.

These and other features related to invention will be described specifically in the following detailed description and representative drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a general isometric view of the embodiment of the invented tool;

FIG. 1A is an isometric partial view of the embodiment of the invented tool illustrating a clamp;

FIG. 1B is an isometric partial view of the embodiment of the invented tool illustrating a quarter round junction;

FIG. 1C is an isometric partial view of the embodiment of the invented tool illustrating a framework;

FIG. 2 is a schematic illustration of the framework transformation patterns from stowed position to ceiling or wall panel's installation positions, front view;

FIG. 2A is a schematic illustration of the method ceiling-to-ceiling for installation of interior panels on horizontal framed surfaces without using floor as a supportive base, showing the embodiment of the invented tool attached to the ceiling frame for ceiling panel installation, side view;

FIG. 2B is a schematic illustration of the method wall-to-ceiling for installation of interior panels on horizontal framed surfaces without using floor as a supportive base, showing the embodiment of the invented tool attached to the wall frame for ceiling panel installation, side view;

FIG. 2C is a schematic illustration of the method wall-to-wall for installation of interior panels on vertical framed surfaces without using floor as a supportive base, showing the embodiment of the invented tool 100 attached to the wall frame for wall panel installation, side view.

DETAILED DESCRIPTION Apparatus

Referring to FIG. 1, there is shown a tool 100 for installation of interior panels 66 on horizontal and vertical framed surfaces without using the floor as a supportive base. In the present implementation the tool 100 comprises three parts: clamp 4, quarter round junction 6 and framework 2.

Referring to FIG. 1A, the clamp 4 is illustrated in more detail and consists of: two sliding rods 10, two pairs of jaws 8, two compressing lever 14 connected together with a handle 16 and some fastening elements (not shown). It is intended for attachment of the tool 100 to all kinds of interior framing materials applicable in construction field.

The jaw 8 in the present invention is shaped as irregular enneagonal prism. Each jaw 8 has an antifriction counter side surface presently shown as a thorns 68 protruding of it and intended for partial penetration into construction frame material for reliable connection. Each jaw 8 has a sliding rod channel 18 by means of which the jaw 8 can move limitedly on the sliding rod 10.

Sliding rods 10 in the present embodiment are shaped as rectangular prism. The left side pair of jaws 8 can be fixed in certain positions on the sliding rods 10 which are predetermined by the size of the framing elements 64 used for attachment of the clamp 4. The right side pair of jaws 8 are eccentrically connected to compressing lever 14 and sliding rods 10 with shafts 70.

Compressing lever 14 in the present embodiment is shaped as a fork and joined together with handle 16. Due to eccentric connection with sliding rods 10 and jaw 8 the rotating movement of the compressing lever 14 which is caused manually by handle 16 will result in linear movement of the right side pair of jaw 8 on the sliding rod 10 toward the left side pair of jaw 8. The torque from compressing levers 14 provides penetration of antifriction elements of the counter side of jaw 8 into the frame material 102 or 104, previously placed between the left side and right side pairs of jaw 8.

Referring to FIG. 1B, the quarter round junction 6 consists of quarter round guide 26 shaped in present embodiment as quarter round plate and fastening elements (bolts) 72 by means of which quarter round junction 6 is attached to the right side pair of jaw 8 described above. The quarter round junction 6 is intended to join parts of the tool 100 together and provides linear movement of sliding rods 10 through it as well as sectoral movement of the framework 2.

The quarter round guide 26 contains: two sliding rod channels 18, main pivot channel 20 and levelling channel 22. Sliding rod channels 18 are intended for the linear movement of the sliding rod 10 through it. Main pivot channel 20 is intended for connection of quarter round junction 6 with framework 2 and allows rotation of the framework 2 on the axis of main pivot 36 passing through main pivot channel 20. Levelling channel 22 is intended to guide and control an angle of elevation (depression) of the framework 2.

Referring to FIG. 1C, the framework 2 consists of: main arm 38, extension section 58, crossbar 28, right arm 44, right semi-arm 32, left arm 46, left semi-arm 30, levelling transmission 50 and is intended for support of an interior panel 66 during an installation process.

Main arm 38 in present embodiment is a rectangular tube consisting of three sections. Middle section 74 has a smaller profile size compare to sections on each of the ends. The first end section 76 contains quarter round guide channel 34 shaped as a slot intended to allow the quarter round guide 26 to slide inside it and main pivot channel 20 with main pivot 36 itself connecting main arm 38 to quarter round junction 6 and allowing rotating movement of the main arm 38 on the axis of main pivot 36. The second end section 78 is connected to extension section 58.

Extension section 58 in present embodiment is a rectangular tube containing security anchor 60 and providing some extension of the main arm 38 as well as additional connection of the tool 100 to the construction framing elements 102 or 104 by means of security anchor 60. Security anchor 60 in present embodiment is shaped as a screw with handle and intended to be screwed into the construction framing element 88 or previously installed panel 66 and framing element 102 or 104 during installation process.

Crossbar 28 in present embodiment is a rectangular tube placed on the middle section 74 of the main arm 38 and sliding on it due to rectangular channel in it within limits of middle section 74 of main arm 38.

Right arm 44 and left arm 46 in present embodiment are rectangular tubes connected to the ends of crossbar 28 with crossbar pivots 48 which allow limited rotation of right arm 44 and left arm 46 around axis of pivots. Due to smaller profile size of right arm 44 and left arm 46 compared to the crossbar 28 profile they also can partially slide inside crossbar 28 from the same axis position as a crossbar 28 and fixated.

Right semi-arm 32 and left semi-arm 30 in present embodiment are rectangular tubes connected to the right arm 44 and left arm 46 respectively by means of semi arm pivots 42 which are providing limited rotation of right semi-arm 32 and left semi-arm 30 on the axis of pivots. Semi-arms 32 and 30 contain supporting shaft 80 which are shaped as a cylinders sliding through semi-arms and having two fixed positions in which protrusion of supportive shaft 80 from the same sides of semi-arms 32 and 30 are provided. Supporting shafts 80 are intended for support of the interior panel 66 in pre-installation position.

Referring to FIG. 2, linear and/or circular motions of crossbar 28, right arm 44, left arm 46, right semi-arm 32, and left semi-arm 30 intended for transformation of the framework 2 prior to panel installation in order to provide support for the panels intended to be installed either on the ceiling 102 or on the wall framing elements 104.

Levelling transmission 50 is placed inside main arm 38 profile, consists of: control lever unit 54, compression spring 56, rod 82, fork 84. Levelling transmission 50 is intended for fixation of the framework 2 relatively to quarter round junction 6 in pre-installation and installation positions and levelling of the framework 2 relatively to interior framing elements 102. or 104 in installation position. In order to provide those functions the fork 84, containing levelling shaft 86 in it, enfolds quarter round guide 26 so that the levelling shaft 86 passing through levelling channel 22 of the quarter round guide 26. This way the linear position of the levelling shaft 86 inside main arm 38 which is controlled by control lever unit 54 and compression spring 56 determine an angle of elevation (depression) of the framework 2 relatively to the clamp 4 and consequently to the construction framing elements 102 or 104 that clamp 4 is attached to. The shape of the levelling channel 22 allows to compensate relative deflection of the frame material caused by the load of the tool 100 with interior panel 66 on it as well as functioning of the tool 100 in regular (right-hand) and reversed (left-hand) connection of the tool 100 to the construction framing elements 102 or 104 that would be described specifically below.

Method of Operation

FIG. 2A, FIG. 2B and FIG. 2C show the methods for installation of interior panels 66 on horizontal and vertical framed surfaces without using a floor as a supportive base. They are intended for usage of the wall 104 and ceiling construction framing elements 102 as a bearing structure for attachment of the tool 100 for panel installation instead of using the floor as a supportive base.

Referring to FIG. 2A, FIG. 2B, and FIG. 2C, the pre-installation position 90 of the tool 100 is a position in which the tool 100 is attached to the construction framing elements 102 or 104 and the main arm 38 of the framework 2 is positioned within an angle of 45-90 degrees relative to the construction framing elements 102 or 104 intended for current panel installation. Pre-installation position 90 intended for loading of the framework 2 with interior panel 66.

Installation position 92 of the tool 100 is a position in which the tool 100 is attached to the construction framing elements 102 or 104 and the main arm 38 of the framework 2 is positioned within an angle close to 0 degrees relative to the construction framing elements 102 or 104 intended for current panel installation. Installation position is intended for attachment of the interior panel 66 to the construction framing elements 102 or 104.

Right-Hand Connection

Regular (right-hand) connection of the tool 100 to the construction framing elements 102 or 104 means attachment of the tool 100 to the construction framing elements 102 or 104 the way in which the main arm 38 being in installation position of the tool 100 is positioned within an angle close to 90 degrees relatively to the long side of the jaws 8.

Left-Hand Connection

Reversed (left-hand) connection of the tool 100 to the construction frame means attachment of the tool 100 to the construction framing elements 102 or 104 the way in which the main arm 38 being in installation position of the tool 100 is positioned within an angle close to 0 degrees relatively to the long side of the jaws 8.

Ceiling-to-Ceiling Method

FIG. 2A illustrates the ceiling-to-ceiling method of installation. In other words, attachment of the tool 100 to the horizontal (ceiling) construction framing elements 102 in order to install an interior panel 66 on the ceiling framing elements 102. For implementation of this method can be used tool 100 described above in the following order:

-   -   Right-hand connection of the tool 100 to the ceiling framing         elements 102. For that, in order to determine the exact place of         panel installation the tool 100 supposed to be placed closely to         the ceiling framing element in installation position so that the         extension section 58 of the framework 2 would touch the vertical         construction frame at the beginning of the ceiling or previously         installed panel and the jaw 8 of the clamp 4 embracing ceiling         frame element 102. After that the clamp 4 supposed to be locked         on the construction frame by manual circular movement of the         handle 16;     -   Lowering of the framework 2 into pre-installation position 90         and deployment of the framework 2 in the ceiling panel         installation pattern 94 and loading of it with an interior panel         66. The interior panel 66 supposed to be placed manually on the         framework 2 so that supporting shaft 80 would restrict sliding         of the interior panel 66 down;     -   Manual swing-up of the framework 2 preloaded with the panel 66         to installation position 92. Levelling transmission 50 will         initially lock up the framework 2 once it is in installation         position and the final levelling, necessary due to some         deflection of the construction frame material caused by the         load, supposed to be done manually by means of control lever         unit 54;     -   Attachment of the security anchor 60. For that, extension         section 58 supposed to be pulled out of the main arm 38 and         attached by means of screwing of the security anchor 60 into the         same construction framing element 102 the clamp 4 is attached         to.     -   Adjustment and attachment of the interior panel 66 to the         construction framing elements 102.

Wall-to-Ceiling Method

FIG. 2B illustrates the wall-to-ceiling method. In other words, attachment of an installation tool 100 to the vertical (wall) construction framing elements 104 in order to install an interior panel 66 on the ceiling framing elements 102. This method intended for installation of the first and the last panels 66 on the ceiling. For implementation of this method, the tool described above can be used in the following order:

-   -   Left-hand connection of the tool 100 to the wall framing element         88. For that the tool 100 in pre-installation position 90         supposed to be attached by means of the clamp 4 to the wall         framing element 104 adjacent to the installation spot. For that         the jaw 8 of the clamp 4 supposed to embrace wall framing         element 104 in the maximum height position. After that the clamp         4 supposed to be locked on the framing element 104 by manual         circular movement of the handle 16;     -   Deployment of the framework 2 in the ceiling panel installation         pattern 96 and loading of it with an interior panel 66. The         interior panel 66 is supposed to be placed manually on the         framework 2 so that supporting shaft 80 would restrict sliding         of the interior panel 66 down;     -   Manual swing-up of the framework 2 preloaded with the interior         panel 66 to installation position 92. Levelling transmission 50         will initially lock up the framework 2 once it is in         installation position 92 and the final levelling, necessary due         to some deflection of the construction framing material caused         by the load, supposed to be done manually by means of control         lever unit 54;     -   Attachment of the security anchor 60. For that, extension         section 58 supposed to be pulled out of the main arm 38 and         attached by means of screwing of the security anchor 60 into the         closest ceiling construction framing element 102.     -   Adjustment and attachment of the interior panel 66 to the         ceiling framing elements 102.

Wall-to-Wall Method

FIG. 2C illustrates the wall-to-wall method. In other words, attachment of an installation tool 100 to the vertical (wall) construction framing elements 104 in order to install an interior panel 66 on the wall framing elements 104. For implementation of this method, the tool described above can be used in the following order:

-   -   Right-hand connection of the tool 100 to the wall framing         element 104. For that, the tool 100 in installation position 92         supposed to be placed to the wall framing element 104 so that         the end of extension section 58 of the framework 2 would touch         the ceiling frame 102 and the jaw 8 of the clamp 4 would embrace         the wall framing element 104. After that the clamp 4 supposed to         be locked on the framing element by manual circular movement of         the handle 16;     -   Deployment of the framework 2 in the wall panel installation         pattern 98 and loading of it with an interior panel 66. The         interior panel 66 supposed to be placed manually on the         framework 2 so that supporting shaft 80 would restrict sliding         of the interior panel 66 down;     -   Manual swing-up of the framework 2 preloaded with the interior         panel 66 to installation position 92. Levelling transmission 50         will initially lock up the framework 2 once it is in         installation position;     -   Adjustment and attachment of the interior panel 66 to the         construction framing element 104.

For the best balance in all of the methods described above, the tool 100 supposed to be attached on the construction framing element 102 or 104 which is closest to the middle of the intended panel 66 position lengthwise.

The scope of the claims should not be limited by the preferred embodiments set forth in the examples, but should be given the broadest interpretation consistent with the description as a whole. 

1-8. (canceled)
 9. A tool for installation of interior panels such as drywalls or any applicable on vertical and horizontal framed surfaces without using floor as a supportive base for a tool and operable by one person comprising: clamp, which is intended for attachment of the tool to the wall or ceiling construction frames; quarter-round junction, which is intended: to join the parts of the tool together, to provide pre-installation and installation elevation or depression angles of the tool and compensation of the relative deflection of the construction frame material caused by the load of the tool loaded with interior panel on it; framework, which is intended for support of interior panels during installation;
 10. The tool according to claim 9, wherein said clamp further comprises: two pairs of jaws, each jaw shaped as at least triangular prism or pyramid with sliding rod channel in it, and where a counter side of each jaw in each pair has antifriction shape which is at least a ribbed or studded surface; two paralleled sliding rods shaped at least as a cylinder or rectangular prism and traversing through the channels of said jaws and quarter-round junction; two compressing levers connected with handle, each said lever being fork shaped and eccentrically connected to said jaw and sliding rod with shafts.
 11. The tool according to claim 9, wherein: said quarter-round junction is connected to clamp by means of said sliding rods and at least two bolts to the pair of jaws, and comprising: at least two bolts; said quarter-round guide is a plate shaped as at least quarter round and includes: two sliding rod channels; main shaft channel; levelling channel.
 12. The tool according to claim 9, wherein framework comprises: main arm which is at least rectangular tube with quarter round guide channel, main pivot channel; medium section of said main arm has a smaller profile size; main pivot, which is at least the cylinder connecting said main arm with quarter round junction through main shaft channel and providing limited rotation of said main arm on it; crossbar, which is at least rectangular tube, placed on the said main arm perpendicularly and sliding on it by the channel in the said crossbar within limits of medium section of the said main arm; right arm, which is at least rectangular tube connected to said crossbar with crossbar pivot which is provides limited rotation of said right arm on it as well as sliding of said right arm inside crossbar; left arm, which is at least rectangular tube connected to said crossbar with crossbar pivot which is provides limited rotation of said left arm on it as well as sliding of said left arm inside crossbar; right semi-arm, which is at least rectangular tube connected to said right arm with right arm pivot, which is provides limited rotation of said right semi-arm on it; left semi-arm, which is at least rectangular tube connected to said left arm with left arm pivot that provides limited rotation of said left semi-arm on it; right supporting shaft, which is at least the cylinder sliding through said right semi-arm; left supporting shaft, which is at least the cylinder sliding through said left semi-arm; extension Section, which is at least rectangular tube providing some extension of said main arm and containing security anchor channel; said extension section as well rotates on axis which is at least cylinder connected to said main arm; security anchor, which is at least the cylinder with thread on one side of it and at least round handle on another side, and sliding through said extension section; levelling transmission, which is placed inside said main arm and consists of: control lever unit, mount, shaft, rod, compressing spring, fork and levelling shaft which is traverses through levelling channel of quarter round guide.
 13. A method for installation of interior panels on vertical and horizontal framed surfaces without using floor as a supportive base for an installation tool comprising: attachment of the tool intended for interior panel installation to a construction frame in order to install the ceiling panel and subsequent installation.
 14. The method of claim 13, wherein the method for installation of interior panels on vertical and horizontal framed surfaces without using floor as a supportive base for an installation tool further comprises: attachment of the tool intended for interior panel installation to the ceiling construction frame in order to install the ceiling panel and subsequent installation.
 15. The method of claim 13, method for installation of interior panels on vertical and horizontal framed surfaces without using floor as a supportive base for an installation tool further comprises: attachment of the tool intended for interior panel installation to the wall construction frame in order to install the ceiling panel and subsequent installation.
 16. A method for installation of interior panels on vertical and horizontal framed surfaces without using floor as a supportive base for an installation tool comprising: attachment of the tool intended for interior panel installation to the wall construction frame in order to install the wall panel and subsequent installation (Wall-to-Wall Method).
 17. The method according to claim 13, further comprising: attachment of the tool by means of clamp to the ceiling construction frame in the point required for precise panel installation; deployment of the framework and loading it with the panel; upswing of the said framework to the panel installation spot, levelling by means of control lever and securing by means of security anchor; attachment of the panel to the ceiling construction frame.
 18. The method according to claim 13, further comprising: attachment of the tool by means of clamp to the wall frame in the point required for precise panel installation; deployment of the framework and loading it with the panel; upswing of the said framework to the installation spot, levelling by means of control lever and securing by means of security anchor; attachment of the panel to the ceiling construction frame.
 19. The method according to claim 16, further comprising: attachment of the tool by means of clamp to the wall frame in the point required for precise panel installation; deployment of the framework and loading it with the panel; upswing of the said framework to the installation spot; attachment of the panel to the wall construction frame. 